Within this paper we present an Intelligent Analog IP design flow and its successful application on an industrial-level mixed-signal ASIC design. This novel design flow is based on a library of flexible (configurable), robust (design for reliability awareness) and technology-independent Analog IPs, available from primitive device level up to complex circuit blocks. Its application leads to a significant increase in efficiency of the overall design process due to reduced design and layout cost...

DE 3310411 A UPAB: 19930925 The selector circuit is for transmissions on monomode optical fibre cable in the Gbit/sec range with a relationship between bit pulse (C1b) and multiplex pulse (C1m) of: C1b = k.C1m, where k = 2 to power n where n is a positive integer between 2 and 5. The circuit employs a flip flop series controlled through exclusive Or gates by a synchronising pulse and a time position selection signal. The synchronising pulses correspond to the bit rates of signal being transmi...

The converter has a membrane structure comprising a piezo layer with a piezoelectric material arranged on a carrier layer i.e. silicon layer, so that vibrations of the membrane structure are generated by applying voltage to the piezo layer. The structure is divided into segments (9a, 9b) in a surface of the structure by cutting lines (7) so that a membrane is mechanically coupled to the cutting lines that cut through all layers of the structure. One of the cutting lines structures the structu...

DE 102007034888 B3 UPAB: 20090212 NOVELTY - The microsystem has a micromirror actuator for pivoting a micromirror (1) around an axis from a resting position. A transparent cover (3) is arranged on a frame chip having a chip frame (10) at which the mirror is resiliently pivotable. The micromirror is arranged in a cavity (11) formed between the cover and a carrier chip (13). The mirror is arranged at a frame (14) around the axis. The frame is arranged in the chip frame. The frame swings-out int...

In the field of manufacturing engineering, cleanroom technology has become a key technology for a number of reasons. Without it, trends such as enhanced performance and miniaturization or the adherence to legal requirements would be impossible to maintain. The main task of cleanroom technology is to reduce the amount of airborne contamination in manufacturing environments to an acceptable level. As the aim to control contamination in clean production facilities cannot be achieved by implement...

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